Background Pediatric radial artery cannulation is challenging because of the small vessel size. Nitroglycerin is a potent vasodilator and facilitates radial artery cannulation by increasing the internal diameter and preventing the vasospasm in adult patients. The authors hypothesize that subcutaneous nitroglycerin injection will improve the success rate of pediatric radial artery cannulation. Methods This double-blind, randomized, controlled, single-center study enrolled pediatric patients (n = 113, age less than 2 yr) requiring radial artery cannulation during general anesthesia. The participants were randomized into the nitroglycerin group (n = 57) or control group (n = 56). After inducing general anesthesia, nitroglycerin solution (5 μg/kg in 0.5 ml), or normal saline (0.5 ml) was subcutaneously injected above the chosen radial artery over 10 s with ultrasound guidance. Three minutes later, the ultrasound-guided radial artery cannulation was performed. Radial artery diameter was measured before and after the subcutaneous injection and after cannulation. The primary outcome was the first-attempt successful cannulation rate. The secondary outcomes included the diameter of the radial artery and the overall complication rate including hematoma and vasospasm. Results A total of 113 children were included in the analysis. The nitroglycerin group had a higher first-attempt success rate than the control group (91.2% [52 of 57] vs. 66.1% [37 of 56]; P = 0.002; odds ratio, 5.3; 95% CI, 1.83 to 15.6; absolute risk reduction, –25.2%; 95% CI, –39.6 to –10.7%). Subcutaneous nitroglycerin injection increased the diameter of the radial artery greater than normal saline (25.0 ± 19.5% vs. 1.9 ± 13.1%; 95% CI of mean difference, 16.9 to 29.3%; P < 0.001). Overall complication rate was lower in the nitroglycerin group than in the control group (3.5% [2 of 57] vs. 31.2% [18 of 56]; P = 0.001; odds ratio, 0.077; 95% CI, 0.017 to 0.350; absolute risk reduction, 28.6%; 95% CI, 15.5 to 41.8%). Conclusions Subcutaneous nitroglycerin injection before radial artery cannulation improved the first-attempt success rate and reduced the overall complication rates in pediatric patients. Editor’s Perspective What We Already Know about This Topic What This Article Tells Us That Is New
Background: Desaturation frequently occurs in infants after general anaesthesia in the prone position. We aimed to evaluate the effect of regular alveolar recruitment in preventing atelectasis in infants and children after general anaesthesia in the prone position. Methods: Children (<3 yr) undergoing general anaesthesia (>2 h) in the prone position were randomised to either receive regular alveolar recruitment or standardised care without recruitment. Ultrasound-guided alveolar recruitment was performed for both groups, and mechanical ventilation was started with a tidal volume of 6 ml kg À1 and PEEP of 7 cm H 2 O. During mechanical ventilation, the intervention (regular recruitment) group received alveolar recruitment once per hour. Lung ultrasound was performed after inducing anaesthesia and each position change. The primary outcome was the incidence of significant atelectasis (defined by consolidation score !2 in any region) before extubation, as evaluated by lung ultrasound undertaken by an investigator masked to trial allocation. Results: Seventy-three children (regular recruitment: 37; standardised care: 36) were included in the analysis. Before the hourly intervention, atelectasis was similar between children randomised to regular alveolar recruitment or standardised care in both supine (83.3%, both groups; P>0.99) and prone positions (88.9% vs 91.9%; P¼0.970). The incidence of atelectasis before extubation was lower in children receiving regular alveolar recruitment (8.1%), compared with 47.2% in children randomised to standardised care (absolute risk reduction: 39.1% [95% confidence interval: 20.6e57.6%); P<0.001). Conclusions: Regular alveolar recruitment reduced the incidence of atelectasis at the end of surgery in infants and children <3 yr undergoing general anaesthesia in the prone position. Clinical trial registration: NCT03486847.
BACKGROUND Ultrasound-guided alveolar recruitment, regardless of the technique, could be more effective because it facilitates real-time monitoring of the expansion of collapsed alveoli. OBJECTIVES To evaluate and compare the effects of an ultrasound-guided lung recruitment manoeuvre with those of a conventional recruitment manoeuvre on the occurrence of postoperative atelectasis and clinical outcomes in children. DESIGN A randomised controlled trial. SETTING Tertiary children's hospital. PATIENTS Children aged 6 years or less. INTERVENTION Children scheduled for simple, superficial procedures underwent lung ultrasound after tracheal intubation (T1), at the end of surgery (T2) and before discharge from the postanaesthesia care unit (T3). Following lung ultrasound evaluation at T1 and T2, the conventional recruitment manoeuvre with a maximal airway pressure of 30 cmH2O was performed in the control group, while an ultrasound-guided recruitment manoeuvre was performed in the ultrasound group. MAIN OUTCOME MEASURES The primary outcome was the incidence of significant atelectasis at T3. RESULTS The incidences of atelectasis at T3 were 20.9 and 11.6% in the control (n = 43) and ultrasound groups (n = 43), respectively (odds ratio [OR], 2.012; 95% confidence interval [CI], 0.614 to 6.594; P = 0.249). The lung ultrasound scores were better in the ultrasound group than in the control group at T2 and T3, and the incidence of postoperative desaturation was higher in the control group than in the ultrasound group (16.3 vs. 2.3%; OR, 0.12; 95% CI 0.01 to 1.04; P = 0.05). The median airway pressure required for full lung expansion in the ultrasound group was 35 cmH2O at T1 and T2. Other postoperative outcomes were similar between groups. CONCLUSION Ultrasound-guided lung recruitment may be more effective than the conventional procedure in terms of the prevention of intra-operative atelectasis and postoperative desaturation; however, its beneficial effects on postoperative atelectasis remain unclear. An inspiratory airway pressure of more than 30 cmH2O is required for full recruitment of alveoli in healthy children. CLINICAL TRIAL REGISTRY ClinicalTrials.gov (NCT03453762).
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